目的对首例中国可视化人体头颈部CT影像进行三维重建研究。
Objective To obtain the CT image 3 D reconstruction of head and neck region of the first Chinese visible human.
结论:初步实现了经络线在虚拟人体上的可视化显示,为构筑经络研究平台提供了数据载体。
Conclusion the visible display of Meridian on the dummy human body is preliminary realized, which provides data carriers for establishing the platform of Meridian study.
针对人体信息系统的三维重建与可视化这一研究课题,本文着重探讨了医学图像边缘检测技术。
Aiming at the research item about 3d rebuilding and visualization of body information system, the author discusses the technique of medical image edge detection emphatically.
目的:建立中国人体女性盆底部局部可视化数字模型。
Objective: To build digitized visible model of the female pelvic floor of the Chinese visible human.
目的建立中国人体男性盆底局部可视化数字模型。
Objective To build digitized visible model of the male pelvic floor of the Chinese visible human.
然后实现虚拟内窥结果的可视化,研制出基于微机的虚拟内窥系统和对三维人体影像数据虚拟内窥的结果。
Then a virtual endoscope system based on PC that USES the method were given and a few virtual endoscope images of 3d human body image data were also presented.
而可视化技术能将人体的组织和病变部位以三维形式显示出来,为医生的临床诊断和治疗提供有用的可视化信息。
Yet, tissues and pathological parts of the human body can be reconstructed and showed in three-dimensional form by visualization technology, which can provide more useful information for clinicians.
目的建立人体耳部可视化数字模型,探索虚拟耳内窥镜在内耳解剖研究中的作用。
Objective To build digitized visible model of the ear of the Chinese visible human and explore the role of virtual endoscopy of the inner ear.
为了从运动序列中提取不同类型的运动片段进行人体动画创作,提出一种三维人体运动数据可视化与交互式分割技术。
In order to get primitive actions for animation production, this paper proposes a visualization and interactive segmentation method for 3d human motion sequences.
摘要:经络可视化研究可以实现对人体经络的准确提取并实现经络线的三维可视化。
Absrtact: meridian visualization study can achieve an accurate extraction of the meridian and three-dimensional visualization of the meridian line.
目的建立可供机自动识别与三维重建的高精度人体原位肝脏和游离肝脏可视化数据集。
Objective To establish more detailed digitized dataset of original and free liver which were automatic recognized and 3D reconstructed by computer easily.
目的建立可供机自动识别与三维重建的高精度人体原位肝脏和游离肝脏可视化数据集。
Objective To establish more detailed digitized dataset of original and free liver which were automatic recognized and 3D reconstructed by computer easily.
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